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US5236202A - Spring loaded resin seal - Google Patents

Spring loaded resin seal
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Publication number
US5236202A
US5236202AUS07/763,822US76382291AUS5236202AUS 5236202 AUS5236202 AUS 5236202AUS 76382291 AUS76382291 AUS 76382291AUS 5236202 AUS5236202 AUS 5236202A
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US
United States
Prior art keywords
groove
walls
ring
wall
seal
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US07/763,822
Inventor
Terrance F. Krouth
Michael J. Zweber
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Rosemount Inc
Original Assignee
Rosemount Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Rosemount IncfiledCriticalRosemount Inc
Assigned to ROSEMOUNT INC. A CORP. OF MINNESOTAreassignmentROSEMOUNT INC. A CORP. OF MINNESOTAASSIGNMENT OF ASSIGNORS INTEREST.Assignors: KROUTH, TERRANCE F., ZWEBER, MICHAEL J.
Priority to US07/763,822priorityCriticalpatent/US5236202A/en
Priority to PCT/US1992/007855prioritypatent/WO1993006390A1/en
Priority to CA002115148Aprioritypatent/CA2115148A1/en
Priority to EP92920959Aprioritypatent/EP0607230B1/en
Priority to JP5506212Aprioritypatent/JPH06511070A/en
Priority to DE69218231Tprioritypatent/DE69218231T2/en
Priority to RU9294019484Aprioritypatent/RU2091650C1/en
Priority to CN92110984Aprioritypatent/CN1071495A/en
Publication of US5236202ApublicationCriticalpatent/US5236202A/en
Application grantedgrantedCritical
Anticipated expirationlegal-statusCritical
Expired - Lifetimelegal-statusCriticalCurrent

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Abstract

A spring loaded seal is placed between three continuous groove walls between mating parts adjacent to a pressure transmitter isolator. The seal includes a resin ring with two ring walls conformable to two of the groove walls. A third ring wall has a continuous slot extending into the ring. A coil spring is placed in the slot such that, upon mating of the parts, the third wall presses the coil spring toward the slot. This compresses the coil spring to sealingly force the first and second outer ring walls against the first and second groove walls respectively with a controlled force. The coil spring's compression controls the sealing force to limit undesired distortion of the groove walls.

Description

BACKGROUND OF THE INVENTION
This invention relates to spring-loaded rings formed of deformable resin material for compressing between mating parts to provide a fluid seal around isolator diaphragms in pressure transmitters. Spring-loaded resin seals are known, for example, as taught in U.S. Pat. No. 4,508,356 to Janian, hereby incorporated herein by reference.
In pressure transmitters, a continuous sealing groove generally encircles an isolator diaphragm on the transmitter to receive a seal which, in turn, seals to a flange which delivers process fluid to the transmitter as shown in cross-section in FIG. 1. To meet the requirements of chemical, pressure and temperature cycling compatibility, various seal shapes and materials are used.
In some applications, a resin polymer material, polytetrafluoroethylene, is selected for the seal and formed in a generally triangular shape to fit the groove. After compression in the groove, as shown in FIG. 2, a portion of the seal material can extrude out of the groove. In some applications, a backup ring made of less resilient material is placed in the groove along with the seal to prevent extrusion of the ring outside of the groove. In applications where the temperature changes cyclically, the seal material extrudes out at high temperatures and then when the transmitter is returned to a lower temperature, the sealing force originally placed on the seal is reduced. Over time, the seal can develop leaks because of this reduced sealing force, and the flange must be re-tightened, or in some cases, the seal must be replaced. The high sealing force used can deflect the walls of the groove and deflect the adjacent isolator diaphragm leading to errors in the pressure transmitter output which requires recalibration of the output. The high sealing force used can also cause instability of the transmitter output as the force varies with temperature.
Seals formed of a metal shell surrounding a central spring also are used, but the metal shell has limited ability to deform to seal to the groove surfaces, and exerts very large forces on the seal surfaces which deflect the isolator diaphragm enough to undesirably shift the calibration of the pressure transmitter.
Pressure transmitter seals surrounding isolator diaphragms present a special sealing problem because there is a desire for a relatively high initial sealing force to ensure complete sealing after temperature cycling, but a conflicting need to reduce the sealing force to a controlled level to avoid undue deflection of the isolator diaphragm from distortion of the surrounding seal groove. A more robust seal for pressure transmitters is desired which maintains an adequate sealing force over temperature cycling while also presenting a deformable surface to form a seal to the groove walls, without using excess force which would deflect the isolator diaphragm by an unacceptable amount.
SUMMARY OF THE INVENTION
A seal surrounding an isolator in a pressure transmitter is placed between first, second and third continuous groove walls between mating parts. The seal comprises a ring formed of resin material having first and second outer ring walls conformable to the first and second groove walls and having a third ring wall with a continuous slot extending into the ring for receiving a coil spring. The seal further comprises a coil spring positioned in the slot such that, upon mating of the parts, the third wall presses the coil spring toward the slot, compressing the coil spring to sealingly force the first and second outer ring walls against the first and second groove walls respectively with a controlled force. The coil spring's compression controls the sealing force to limit undesired distortion of the groove walls. The controlled sealing force provides a reliable seal under temperature cycling conditions. In a preferred embodiment, the resin ring comprises the polymer polytetrafluoroethylene, which resists attack from many process chemicals used with pressure transmitters.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a cross-sectional view of a PRIOR ART arrangement of a continuous sealing groove surrounding isolator diaphragms in a pressure transmitter.
FIG. 2 is a cross-sectional view of a PRIOR ART polytetrafluoroethylene seal after compression in the sealing groove of FIG. 1.
In FIG. 3, a front view of an embodiment of a seal according to the present invention is shown.
In FIG. 4, a cross-section view of the seal of FIG. 3 disposed in a sealing groove is shown.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
In FIG. 1, a PRIOR ART pressure transmitter 10 is shown in cross-section. Pressure sensingcell 12 in pressure transmitter 10 includesisolator diaphragms 14 which isolatepressure sensing cell 12 from process fluids, but are deflectable to transfer pressure insidecell 12 for sensing.Isolator diaphragms 14 are welded around their outer rims to the cell body. When the outer rims ofisolator diaphragms 14 are distorted, this deflects the isolator diaphragms and gives a false, undesired indication of a pressure change. Process fluids are coupled to the transmitter byflanges 16 which are attached to transmitter 10 bybolts 18. A continuous,circular sealing cavity 22 is formed between circular rims oncell 12 and beveled edges onflanges 16.Seals 24, which can be O-rings, metal seals, or solid Dupont Teflon® polytetrafluoroethylene seals are placed incircular sealing cavity 22, and thenbolts 18 are tightened to place a sealing force on the seal selected.
In FIG. 2, a PRIOR ART Teflonseal 24, which is originally triangular in shape, is shown in cross-section in sealingcavity 22 after compression by tighteningbolts 18. A portion of the seal has extruded out ofcavity 22. A second ring of harder resinous material know as a "backup ring" (not shown) is sometimes placed near the opening ofcavity 22 to contain the teflon and reduce problems with the material extruding out of the groove. As stated above, the seal has a limited life in temperature cycling applications and exerts excessive force on theadjacent isolator diaphragm 14 which results in pressure measurement errors.
In FIG. 3,seal 30 according to the present invention is shown. The seal is continuous and has a shape selected to match the sealing cavity into which it is to be installed, in this case a circular shape.
In FIG. 4,seal 30 is shown in cross section placed in circular sealing groove orcavity 22.Cavity 22 is defined bygroove walls 24, 26, which are part of thepressure sensing cell 12, and bygroove wall 28 which is a beveled circular edge offlange 16. Thegroove walls 24, 26, and 28 are arranged in cross-section in a generally triangular configuration. Aseal 30 according to the present invention is placed between thegroove walls 24, 26, and 28 between themating cell 12 and theflange 16. The seal comprises aring 32 formed of resin material having first and secondouter ring walls 34, 36 conformable to the first andsecond groove walls 24, 28 and having athird ring wall 38 with a continuous slot 42 extending into the ring. Thering 32 is preferably formed of a polymer such as Teflon polytetrafluoroethylene which has resilient characteristics allowing it to confirm to thegroove walls 24, 28 to seal when force is applied. Thegroove walls 24, 28 preferably have a very smooth, highly polished surface to effect a seal with thering 32 without use of excessive sealing force. Theresin ring 32 has a generally triangular shape to fit thecavity 22, but the corners of thering 32 are truncated to avoid high forces that would otherwise be encountered when these corners are squeezed together as thebolts 18 are tightened.
Continuous slot 42 is shaped to receive a coil spring and has aprotrusion 44 near its opening towall 38 which serves as a retainer for a coil spring.
Coil spring 50 is continuous and is positioned in the slot 42 such that, upon mating of the parts, the third wall presses the coil spring 50 toward the slot 42, compressing the coil spring to sealingly force the first and second outer ring walls against the first and second groove walls respectively with a controlled force, the coil spring's compression controlling the sealing force to limit undesired distortion of the groove walls. Thethird wall 26 can either press directly on the coil spring 50, or thethird wall 26 can press on coil spring 50 indirectly through a portion ofring 32, or thethird wall 26 can press on the coil spring by a combination of both direct and indirect pressing as shown in FIG. 4.
An insert of harder material can also be included in thecavity 22 at 54 to limit extrusion of the ring out of the cavity if desired.
The coil spring 50 is preferably a helically wound coil spring which is wound to be slanted to provide improved spring characteristics. The outer shape of the spring winding 50 can be round or oval as shown in FIG. 4.
Although the invention has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the invention.

Claims (11)

We claim:
1. A seal for placement between first, second and third continuous groove walls of a continuous groove formed between first and second parts and bounding a space to be sealed, said seal providing sealing between a surface of the second groove wall formed by a wall of the second part, and a surface of the first groove wall formed on the first part, the third groove wall being formed on the first part and being substantially perpendicular to the first groove wall, such that the groove has a substantially triangular cross section, comprising:
a continuous ring formed of a resin material having first and second outer ring walls conformable to the surfaces of the first and second groove walls, and having a third ring wall positioned generally parallel to the third groove wall, said third ring wall having a continuous slot extending into the ring defined by a pair of parallel surfaces which in turn are generally parallel to the surface of the second groove wall, which is oblique of both the first and third groove walls; and
a continuous coil spring formed to fit within the slot, and having a portion of its surface engaged by the surface of the third wall, the mating parts being movable toward each other for effecting sealing, and the surface of the second groove wall creating a force on the ring which tends to cause the coil spring to expand in direction outwardly of the slot and against the third wall, the coil spring being compressed to sealingly force the first and second ring walls against the first and second groove walls respectively with a controlled force, the compression of the coil spring controlling the sealing force to limit undesired distortion of the groove walls.
2. A seal for placement between the first, second and third continuous groove walls of a continuous groove formed between first and second parts, the first and third groove walls being formed on the first part, and the second groove wall being formed on the second part, the seal comprising:
a ring formed of resin material having first and second outer ring walls conformable to the first and second groove walls and having a third ring wall with a continuous slot extending into the ring and facing the third groove wall, the continuous slot being a ring slot defined by surfaces oblique to the first and third groove walls; and
a coil spring positioned in the slot such that upon mating of the parts, the coil spring is urged toward both the first and third groove walls, the third groove wall presses the coil spring in a direction toward the slot, compressing the coil spring to sealingly force the first and second outer ring walls against the first and second groove walls respectively with a controlled force, the coil spring's compression controlling the sealing force to limit undesired distortion of the groove walls.
3. The seal of claim 2 wherein the ring is formed of a material which comprises a polymer.
4. The seal of claim 3 wherein the polymer comprises polytetrafluoroethylene.
5. The seal of claim 2 wherein the first and the third groove walls are perpendicular to one another.
6. The seal of claim 2 wherein the slot is defined by a pair of slot walls extending inwardly from the third ring wall, the slot walls being substantially parallel to second groove wall.
7. A seal for placement between first, second and third continuous groove walls of a continuous groove formed between first and second parts, the first and third groove walls being formed on the first part, and the second groove wall being formed on the second part, the seal comprising:
a ring formed of resin material having first and second outer ring walls conformable to the first and second groove walls and having a third ring wall with a continuous slot extending into the ring and facing the third groove wall, the continuous slot having a central axis on a locus of lines inclined relative to the first groove wall; and
a coil spring positioned in the slot such that upon mating of the parts, the coil spring is urged toward both the first and third groove walls, the third groove wall presses the coil spring in a direction toward the slot, compressing the coil spring to sealingly force the first and second outer ring walls against the first and second groove walls respectively with a controlled force, the coil spring's compression controlling the sealing force to limit undesired distortion of the groove walls.
8. The seal of claim 7 wherein the ring is formed of a material which comprises a polymer.
9. The seal of claim 7 wherein the polymer comprises polytetrafluoroethylene.
10. The seal of claim 7 wherein the first and the third groove walls are perpendicular to one another.
11. The seal of claim 7 wherein the slot is defined by a pair of slot walls extending inwardly from the third ring wall, the slot walls being substantially parallel to second groove wall.
US07/763,8221991-09-231991-09-23Spring loaded resin sealExpired - LifetimeUS5236202A (en)

Priority Applications (8)

Application NumberPriority DateFiling DateTitle
US07/763,822US5236202A (en)1991-09-231991-09-23Spring loaded resin seal
JP5506212AJPH06511070A (en)1991-09-231992-09-17 Spring loaded resin sealing device
CA002115148ACA2115148A1 (en)1991-09-231992-09-17Spring loaded resin seal
EP92920959AEP0607230B1 (en)1991-09-231992-09-17Spring loaded resin seal
PCT/US1992/007855WO1993006390A1 (en)1991-09-231992-09-17Spring loaded resin seal
DE69218231TDE69218231T2 (en)1991-09-231992-09-17 SPRING-LOADED RESIN GASKET
RU9294019484ARU2091650C1 (en)1991-09-231992-09-17Spring-loaded rubber seal
CN92110984ACN1071495A (en)1991-09-231992-09-22Spring loaded resin seal

Applications Claiming Priority (1)

Application NumberPriority DateFiling DateTitle
US07/763,822US5236202A (en)1991-09-231991-09-23Spring loaded resin seal

Publications (1)

Publication NumberPublication Date
US5236202Atrue US5236202A (en)1993-08-17

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ID=25068912

Family Applications (1)

Application NumberTitlePriority DateFiling Date
US07/763,822Expired - LifetimeUS5236202A (en)1991-09-231991-09-23Spring loaded resin seal

Country Status (8)

CountryLink
US (1)US5236202A (en)
EP (1)EP0607230B1 (en)
JP (1)JPH06511070A (en)
CN (1)CN1071495A (en)
CA (1)CA2115148A1 (en)
DE (1)DE69218231T2 (en)
RU (1)RU2091650C1 (en)
WO (1)WO1993006390A1 (en)

Cited By (26)

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US6457367B1 (en)1999-09-282002-10-01Rosemount Inc.Scalable process transmitter
US6480131B1 (en)2000-08-102002-11-12Rosemount Inc.Multiple die industrial process control transmitter
US6487912B1 (en)1999-09-282002-12-03Rosemount Inc.Preinstallation of a pressure sensor module
US6504489B1 (en)2000-05-152003-01-07Rosemount Inc.Process control transmitter having an externally accessible DC circuit common
US6511337B1 (en)1999-09-282003-01-28Rosemount Inc.Environmentally sealed instrument loop adapter
US6510740B1 (en)1999-09-282003-01-28Rosemount Inc.Thermal management in a pressure transmitter
US6516672B2 (en)2001-05-212003-02-11Rosemount Inc.Sigma-delta analog to digital converter for capacitive pressure sensor and process transmitter
US6539808B2 (en)2000-02-152003-04-01P I Components CorporationPress-fit remote diaphragm assembly
US6546805B2 (en)2000-03-072003-04-15Rosemount Inc.Process fluid transmitter with an environmentally sealed service block
US6571132B1 (en)1999-09-282003-05-27Rosemount Inc.Component type adaptation in a transducer assembly
US6662662B1 (en)2000-05-042003-12-16Rosemount, Inc.Pressure transmitter with improved isolator system
US6684711B2 (en)2001-08-232004-02-03Rosemount Inc.Three-phase excitation circuit for compensated capacitor industrial process control transmitters
US20040046722A1 (en)*2002-09-062004-03-11Trimble Steven R.Low power physical layer for a bus in an industrial transmitter
US6765968B1 (en)1999-09-282004-07-20Rosemount Inc.Process transmitter with local databus
US20050056106A1 (en)*1999-09-282005-03-17Nelson Scott D.Display for process transmitter
US20050284227A1 (en)*2004-06-252005-12-29Broden David AHigh temperature pressure transmitter assembly
US20070191970A1 (en)*2006-01-302007-08-16Orth Kelly MTransmitter with removable local operator interface
US7773715B2 (en)2002-09-062010-08-10Rosemount Inc.Two wire transmitter with isolated can output
US20110140370A1 (en)*2009-12-162011-06-16Muzaffer SutcuSeal Member for Use in a Seal System Between a Transition Duct Exit Section and a Turbine Inlet in a Gas Turbine Engine
US8334788B2 (en)2010-03-042012-12-18Rosemount Inc.Process variable transmitter with display
WO2017019753A1 (en)*2015-07-282017-02-02Saint-Gobain Performance Plastics CorporationSeals
US20170122331A1 (en)*2014-05-052017-05-04Sulzer Management AgSeal arrangement for a high-pressure pump and high-pressure pump having such a seal arrangement
US10480337B2 (en)2017-04-182019-11-19Rolls-Royce North American Technologies Inc.Turbine shroud assembly with multi-piece seals
US10746037B2 (en)2016-11-302020-08-18Rolls-Royce CorporationTurbine shroud assembly with tandem seals
US20210131560A1 (en)*2018-07-182021-05-06Denso CorporationSeal ring and valve device using the same
CN113661049A (en)*2019-04-122021-11-16采埃孚股份公司Method for establishing a connection between two components

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US5314165A (en)*1993-07-141994-05-24Bray International, Inc.Rotary valve
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JP5166742B2 (en)*2006-02-142013-03-21トヨタ自動車株式会社 Damping gasket and manufacturing method thereof, manifold gasket
CN103335103A (en)*2013-07-122013-10-02昆山新莱洁净应用材料股份有限公司Sealing mechanism without dead angle
CN106133412B (en)*2014-04-042018-07-31川崎重工业株式会社 Sealed construction of shell elements
EP3198132B1 (en)*2014-09-232018-11-28Continental Automotive GmbHAdjustment device for a fuel injection valve and fuel-injection system
CN110500406B (en)*2019-06-272021-02-19北京七星华创流量计有限公司Sealing structure and mass flow controller

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Cited By (42)

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Publication numberPriority datePublication dateAssigneeTitle
US6898980B2 (en)1999-09-282005-05-31Rosemount Inc.Scalable process transmitter
US20050056106A1 (en)*1999-09-282005-03-17Nelson Scott D.Display for process transmitter
US7134354B2 (en)1999-09-282006-11-14Rosemount Inc.Display for process transmitter
US6487912B1 (en)1999-09-282002-12-03Rosemount Inc.Preinstallation of a pressure sensor module
US6484107B1 (en)1999-09-282002-11-19Rosemount Inc.Selectable on-off logic modes for a sensor module
US6511337B1 (en)1999-09-282003-01-28Rosemount Inc.Environmentally sealed instrument loop adapter
US6510740B1 (en)1999-09-282003-01-28Rosemount Inc.Thermal management in a pressure transmitter
US6457367B1 (en)1999-09-282002-10-01Rosemount Inc.Scalable process transmitter
US6765968B1 (en)1999-09-282004-07-20Rosemount Inc.Process transmitter with local databus
US20040089075A1 (en)*1999-09-282004-05-13Behm Steven M.Scalable process transmitter
US6568279B2 (en)1999-09-282003-05-27Rosemount Inc.Scalable process transmitter
US6571132B1 (en)1999-09-282003-05-27Rosemount Inc.Component type adaptation in a transducer assembly
US6593857B1 (en)1999-09-282003-07-15Rosemount Inc.Modular process transmitter having a scalable EMI/RFI filtering architecture
US6609427B1 (en)1999-09-282003-08-26Rosemount Inc.Gas fill system in a pressure transmitter
US6539808B2 (en)2000-02-152003-04-01P I Components CorporationPress-fit remote diaphragm assembly
US6546805B2 (en)2000-03-072003-04-15Rosemount Inc.Process fluid transmitter with an environmentally sealed service block
US6662662B1 (en)2000-05-042003-12-16Rosemount, Inc.Pressure transmitter with improved isolator system
US6504489B1 (en)2000-05-152003-01-07Rosemount Inc.Process control transmitter having an externally accessible DC circuit common
US6480131B1 (en)2000-08-102002-11-12Rosemount Inc.Multiple die industrial process control transmitter
US6516672B2 (en)2001-05-212003-02-11Rosemount Inc.Sigma-delta analog to digital converter for capacitive pressure sensor and process transmitter
US6684711B2 (en)2001-08-232004-02-03Rosemount Inc.Three-phase excitation circuit for compensated capacitor industrial process control transmitters
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Also Published As

Publication numberPublication date
DE69218231D1 (en)1997-04-17
WO1993006390A1 (en)1993-04-01
RU2091650C1 (en)1997-09-27
EP0607230A4 (en)1994-06-02
CN1071495A (en)1993-04-28
DE69218231T2 (en)1997-08-07
EP0607230B1 (en)1997-03-12
CA2115148A1 (en)1993-04-01
EP0607230A1 (en)1994-07-27
JPH06511070A (en)1994-12-08

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